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Minnesota
Comprehensive
StatewideFreight and
Passenger Rail
Plan
Draft Final Report
December 2009
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draft final report
Minnesota ComprehensiveStatewide Freight andPassenger Rail Plan
prepared for
Minnesota Department of Transportation
prepared by
Cambridge Systematics, Inc.
with
Kimley Horn and Associates, Inc.TKDA, Inc.
December 2009
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Table of ContentsExecutive Summary ................................................................................................................... ES-1Vision for Rail...................................................................................................................... ES-2System Costs ..................................................................................................................... ES-5Passenger Rail Performance and Benefits ......................................................................... ES-5Rail System Development and Funding Responsibilities .................................................... ES-6
1 Overview and Vision ........................................................................................................... 1-11.1 Background and Purpose of Study .......................................................................... 1-11.2 Freight Rail System Vision ......................................................................................... 1-21.3 Passenger Rail Vision ............................................................................................... 1-51.4 Categories of Passenger Rail .................................................................................. 1-6
1.5 Investment Needs ................................................................................................... 1-71.6 Management Approach ...................................................................................... 1-171.7 Financing .............................................................................................................. 1-181.8 Stakeholder and Public Outreach ......................................................................... 1-23
2 Existing Rail System ............................................................................................................. 2-12.1 Railroad Industry Organization and Investment Strategies ....................................... 2-12.2 Composition of Minnesotas Freight Railroad Industry ............................................. 2-12.3 Freight Rail Industry Environment ............................................................................. 2-82.4 Whats Next for the Freight Rail Industry? ................................................................ 2-132.5 Freight Rail Investment and Financing Practices ................................................... 2-162.6 Value of Rail Industry to Minnesota ........................................................................ 2-162.7 Passenger Rail ....................................................................................................... 2-18
3 Forecasts ............................................................................................................................ 3-13.1 Minnesota Economic Overview .............................................................................. 3-13.2 Freight Demand in Minnesota ................................................................................. 3-83.3 Passenger Demand .............................................................................................. 3-24
4 Investment Needs .............................................................................................................. 4-14.1 Methodology .......................................................................................................... 4-14.2 Freight-Only Corridor Needs .................................................................................. 4-104.3 Shared Freight and Passenger Rail Corridors ......................................................... 4-254.4 High-Speed Rail Passenger Service Needs ............................................................ 4-364.5 Cost of Project Implementation ............................................................................ 4-41
5 Performance Assessment ................................................................................................... 5-15.1 Passenger Evaluation .............................................................................................. 5-15.2 Freight Evaluation .................................................................................................. 5-135.3 Benefits and Costs of the Program ........................................................................ 5-18
6 Institutional Relationships .................................................................................................... 6-16.1 Minnesota Agency Organization and Rail Program ................................................ 6-26.2 Minnesota Public Rail Programs .............................................................................. 6-96.3 Rail Agency Organization and Programs in Other States ....................................... 6-176.4 Management Plan for Minnesota ......................................................................... 6-27
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7 Financial Program .............................................................................................................. 7-17.1 Federal Funding ...................................................................................................... 7-17.2 Financial Plan ......................................................................................................... 7-4
A List of Outreach Activities and Committees ....................................................................... A-1
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List of TablesTable ES.1 Annual Passenger Rail Systemwide Performance Measures ................................... ES-7Table 1.1 Ridership Forecasts Results 2030 Annual Trips with Most Favorable
Variables Tested...................................................................................................... 1-9
Table 1.2 Annual Passenger Rail Systemwide Performance Measures (Annual) Phase I ..... 1-16
Table 1.3 Freight System Costs, Public and Private SharesIncluding Contingencies ($millions) ...................................................................... 1-21
Table 1.4 Total Possible Annual Costs, State Rail Plan($millions)........................................... 1-23
Table 2.1 Freight Railroads Operating in Minnesota ................................................................ 2-3
Table 2.2 Typical Sources of Funding of Rail Operations and Infrastructure .......................... 2-16
Table 3.1 Estimated Annual Demand from/to Twin Cities for 2005........................................ 3-27
Table 3.2 Projected 2030 Rail Demand to/from Twin Cities and Selected Cities Base Case ............................................................................................................. 3-28
Table 3.3 Projected 2030 Rail Demand to/from Twin Cities and Selected Cities Best Case .............................................................................................................. 3-29
Table 3.4 Forecast Rail Mode Share Other City Pairs 15 Trains/Day................................... 3-30
Table 4.1 Initial Screening, Data Evaluation ............................................................................ 4-3
Table 4.2 Cost Assumptions for Freight Rail ............................................................................. 4-8
Table 4.3 Cost Assumptions for Passenger Rail ....................................................................... 4-9
Table 4.4 Summary of Freight-Only Investments ................................................................... 4-11Table 4.5 Summary of BNSF Improvements on Freight-Only Corridors .................................. 4-12
Table 4.6 Summary of CN Improvements on Freight-Only Corridors ..................................... 4-12
Table 4.7 Summary of CP Improvements on Freight-Only Corridors ..................................... 4-13
Table 4.8 Summary of UP Improvements on Freight-Only Corridors ...................................... 4-14
Table 4.9 Weight, Speed, and Track Restrictions ................................................................... 4-14
Table 4.10 Other Major Capacity Improvements ................................................................... 4-16
Table 4.11 2030 Shared Freight and Passenger Rail Corridors Reviewed ............................... 4-26
Table 4.12 Summary of Twin Cities to Cambridge Improvements .......................................... 4-27
Table 4.13 Summary of Twin Cities to St. Cloud Improvements .............................................. 4-28Table 4.14 Summary of Twin Cities to Fargo/Moorhead Improvements .................................. 4-29
Table 4.15 Summary of Twin Cities to Sioux Falls, South Dakota Improvements ...................... 4-30
Table 4.16 Summary of Minneapolis to St. Paul Improvements .............................................. 4-32
Table 4.17 Summary of Twin Cities to Albert Lea Improvements ............................................. 4-34
Table 4.18 Summary of Twin Cities to Mankato Improvements ............................................... 4-35
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Table 4.19 Summary of Twin Cities to Eau Claire, Wisconsin Improvements ........................... 4-36
Table 4.20 Summary of Midwest High-Speed Regional Rail Initiative Twin Cities to Chicago(River Route) ImprovementsMinnesota Costs ....................................................... 4-37
Table 4.21 Summary of Twin Cities to Duluth High-Speed Rail ImprovementsMinnesota Costs ................................................................................................... 4-38
Table 4.22 Summary of Twin Cities to Rochester High-Speed Rail Improvements .................. 4-40
Table 4.23 Summary of Twin Cities to Chicago (via Rochester) High-SpeedRail Improvements ................................................................................................ 4-41
Table 4.24 2030 Shared Freight and Passenger Rail Corridors Reviewed BASE CASE Costsfor All Improvements between City Pairs (Does Not Assume Improvements
Build Upon Each Other) ......................................................................................... 4-44
Table 4.25 2030 Shared Freight and Passenger Rail Corridors Reviewed BEST CASE Costsfor All Improvements between City Pairs (Does Not Assume Improvements BuildUpon Each Other) ................................................................................................. 4-45
Table 4.26 2030 Shared Freight and Passenger Rail Corridors Reviewed Built as a SystemCosts for All Improvements between City Pairs (Assumes Improvements Builtupon Each Other) ................................................................................................. 4-46
Table 4.27 2030 Shared Freight and Passenger Rail Corridors Reviewed High-Priority Corridors(Assumes Improvements Built upon Each Other) ................. 4-47
Table 4.28 Passenger Rail Project Earmark Requests .............................................................. 4-48
Table 5.1 Passenger Variable Estimation Procedure ............................................................... 5-2
Table 5.2 Passenger Project Performance Measures Benefits: BaseIn Millions ................... 5-7
Table 5.3 Passenger Project Performance Measures Benefits: BestIn Millions .................... 5-8
Table 5.4 Passenger Project Performance Measures Costs and Cost-Effectiveness:
BaseIn Millions
........................................................................................................ 5-9Table 5.5 Passenger Project Performance Measures Costs and Cost-Effectiveness:
BestIn Millions ....................................................................................................... 5-10
Table 5.6 Annual Passenger Rail Systemwide Performance Analysis .................................... 5-13
Table 5.7 Freight Variable Estimation Procedure .................................................................. 5-14
Table 5.8 Percent Freight Rail Lines More Than 25 mph ....................................................... 5-15
Table 5.9 Percent Freight Rail Lines with 286,000-Pound Railcar Capacity ........................... 5-16
Table 5.10 Percent Freight Rail Lines with Increased Track to Siding Ratio .............................. 5-17
Table 6.1 Approaches to Rail Program Administration .......................................................... 6-18
Table 6.2 Public Private Partnerships Infrastructure Approachesa .......................................... 6-22
Table 6.3 Types of Public Private Partnerships Approaches in SurfaceTransportation Projects .......................................................................................... 6-23
Table 7.1 Minnesota Regional Railroad Authorities ................................................................. 7-9
Table 7.2 Freight System Costs, Public and Private SharesIncluding Contingencies ($millions) ...................................................................... 7-12
Table 7.3 Freight System Costs, Annual Public CostsIncluding Contingencies ($millions) .... 7-14
Table 7.4 Base Case and Best Case Assumptions ................................................................ 7-15
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Table 7.5 Passenger Rail Corridor Operating Costs($millions) .............................................. 7-16
Table 7.6 Farebox Recovery Scenarios($millions) ................................................................ 7-17
Table 7.7 Total Possible Annual Costs, State Rail Plan($millions)........................................... 7-17
Table A.1 Policy Advisory Committee (PAC) ............................................................................ A-1Table A.2 Freight and Passenger Rail Technical Advisory Committees (FTAC and PTAC) ........ A-2
Table A.3 Summary of Open Houses ...................................................................................... A-3
Table A.4 Stakeholder Meetings .............................................................................................. A-4
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List of FiguresFigure ES.1 Recommended Minnesota and Regional Passenger Rail System ....................... ES-4Figure 1.1 National Passenger Rail Vision ............................................................................... 1-2
Figure 1.2 Needs Assessment Methodology .......................................................................... 1-8
Figure 1.3 Current LOS with 2009 Freight and Passenger Volumes and Future LOS with2030 Freight and Passenger Volumes, with No Improvements ............................ 1-10
Figure 1.4 Recommended Minnesota and Regional Passenger Rail System ................... 1-11
Figure 1.5 Current LOS with Freight and Passenger Volumes versus LOS with Post-2009Freight and Passenger Improvements ................................................................. 1-12
Figure 1.6 Future LOS with 2030 Freight and Passenger Volumes versus Future LOS Post-2030 Freight and Passenger Improvements ........................................................ 1-12
Figure 1.7 Summary of Passenger Route Performance Base Case ................................... 1-14
Figure 1.8 Summary of Passenger Route Performance Best Case .................................... 1-15
Figure 1.9 Passenger Rail Project Decision Process .............................................................. 1-18
Figure 1.10 Freight Rail System Improvement CostsIncluding Contingencies, ($millions)...... 1-22
Figure 2.1 Minnesota Class I Railroads ................................................................................... 2-4
Figure 2.2 Regional and Short Line Railroads in Minnesota ................................................. 2-12
Figure 3.1 Minnesota GSP by Industry Sector 2007................................................................. 3-1
Figure 3.2 Share of Midwestern Economy by State 1980 to 2007 .......................................... 3-2
Figure 3.3 Projected Change in Earnings by Industry1990 to 2030 ....................................... 3-3
Figure 3.4 Minnesota Employment, Percentage Change by County2007 to 2030 .............. 3-4
Figure 3.5 Minnesota Employment, Net Change by County2007 to 2030 ........................... 3-4
Figure 3.6 Minnesota Population, Percentage Change by County2007 to 2030.................. 3-6
Figure 3.7 Minnesota Population, Net Change by County2007 to 2030............................... 3-6
Figure 3.8 Minnesota Freight Movement 2007....................................................................... 3-9
Figure 3.9 Minnesotas Share of U.S. Production by Manufacturing Industry1997 to 2006 ....................................................................................................... 3-10
Figure 3.10 Medical Device Employment by Metropolitan Area 2007................................... 3-11
Figure 3.11 Ethanol Production Facilities ................................................................................ 3-12
Figure 3.12 Minnesota Paper and Lumber Products Facilities ................................................ 3-13
Figure 3.13 Rail Movement Types 2007 to 2030 .................................................................... 3-15
Figure 3.14 Freight Volume on Minnesota Railroads (2007)In Tons ........................................ 3-18
Figure 3.15 Freight Volume on Minnesota Railroads (2030)In Tons ........................................ 3-18
Figure 3.16 Total Tonnage Originating in Minnesota Counties (2007) ..................................... 3-20
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Figure 3.17 Total Tonnage Terminating in Minnesota Counties (2007) ................................... 3-20
Figure 3.18 Modes by Tonnage 2007 to 2030 ....................................................................... 3-21
Figure 3.19 Top Five Truck Freight Destinations 2007 to 2030................................................. 3-22
Figure 3.20 Minnesota Truck Traffic by Tonnage 2007............................................................ 3-23Figure 3.21 Minnesota Truck Traffic by Tonnage 2030............................................................ 3-23
Figure 4.1 Summary of Approach to Needs Identification and Evaluation ........................... 4-1
Figure 4.2 2009 Freight Level of Service Without Improvements ............................................ 4-5
Figure 4.3 2030 Freight Plus 2030 Passenger Level of Service Without Improvements ........... 4-5
Figure 4.4 2009 Freight Level of Service Shared Corridors withRecommended Improvements.............................................................................. 4-6
Figure 4.5 2030 Freight Plus 2030 Passenger Level of Service Shared Corridors withRecommended Improvements ............................................................................ 4-6
Figure 4.6 Twin Cities Metro Rail Connections ...................................................................... 4-32
Figure 4.7 Phase I and Phase II Passenger ........................................................................... 4-43
Figure 5.1 Summary of Individual Passenger Route Performance Base ............................ 5-11
Figure 5.2 Summary of Individual Passenger Route Performance Best .............................. 5-12
Figure 6.1 Passenger Rail Project Decision Process .............................................................. 6-27
Figure 7.1 Freight Rail System Improvement CostsIncluding Contingencies, ($millions) ..... 7-11
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Executive SummaryThe purpose of the Minnesota Comprehensive Statewide Freight and Passenger Rail Plan
(State Rail Plan), pursuant to Minnesota Statute Minnesota Session Law 2008,
Section 174.03 subd 1b, is to guide the future of the rail system and rail services in the State.
The development of the Plan, managed by the Minnesota Department of Transportation
(Mn/DOT), included extensive involvement by the private sector, public officials, and
representatives, as well as the general public.
The timing of this plan is critical. The rail system has long played a significant role in the
movement of freight in Minnesota, carrying an estimated thirty percent of all freight tonnage
much more so than many comparable states. Minnesota has the eighth highest number of trackmiles in the U.S. At the same time, intercity passenger rail service has been minimal in recent
decades. In recent years, Minnesota has experienced a dramatic renewal of interest in passen-
ger rail, with Northstar commuter rail service initiated in December 2009 following the
introduction of Hiawatha light rail service several years earlier. Numerous counties, cities,
regional rail authorities, other supporters, and Mn/DOT have been actively engaged in planning
new passenger rail services.
During 2008 and 2009, major new Federal funding support emerged for rail, particularly for
investment in intercity passenger rail. This Plan addresses opportunities for Minnesota to
improve both freight and passenger rail in the State, and intentionally builds upon and sup-
ports several rail transportation programs in place and new initiatives currently underdevelopment. Many of these opportunities overlap as most of the proposed passenger rail
services would operate in whole or in part on existing trackage owned and operated by the
freight railroads.
The State Rail Plan effectively integrates Minnesotas efforts with a national resurgence of
interest in high speed and intercity passenger rail. The Plan has determined that the option for
a high-capacity, high-speed rail transportation option is not only desirable, but affordable and
even preferable as fuel prices rise and larger volumes of travelers shift to an available rail sys-
tem here and around the nation. These services have the potential to offer faster, more
economical alternatives to automobile and air travel in intercity corridors up to 500 miles in
length that have sufficient density and demand. The State Rail Plan is the first step in estab-
lishing a federally compliant program with an intentional, well-planned, and incremental
approach to building the regional and national system, similar to the Interstate System of
Highways. Minnesota will positively benefit economically and in our style of life from these
expanded transportation options, including high speed trains that tie into the emerging
national rail system using the best available technologies, designs, and operating methods.
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Relatively small Federal and state grant and loan programs have existed for many years to sup-
port certain types of freight rail investments which have broader public purposes, such as grade
crossings. In 2008, Congress enacted the Passenger Rail Improvement and Investment Act
(PRIIA) which authorized approximately $750 million/year in grants for intercity rail projects.
In 2009, the American Reinvestment and Recovery Act (ARRA or Stimulus) appropriated anadditional $8 billion for passenger rail projects in the PRIIA programs. These actions at the
Federal level have set off a lively national competition for current and potential future funding.
The State Rail Plan establishes the following:
A long-term vision for Minnesotas rail system, consisting of an integrated freight and
passenger rail network, as part of a balanced statewide transportation system, as defined
in Mn/DOTs Statewide Transportation Plan;
A recommended program of priority improvements over the next 20 years, including an
estimate of investments needs and benefits resulting from those investments;
Recommended potential approaches to financing these improvements, including accessing
federal funds, public-private partnerships, and alternative financing mechanisms; and
Other suggested changes, including refinements to existing state rail programs, and
institutional responsibilities for rail service and infrastructure development.
Vision for RailThe vision for freight rail is that Minnesota should develop a balanced multimodal freight sys-
tem which can respond to increased regional and international economic competition,
constrained highway capacity, environmental challenges, a diverse customer base, and risingenergy costs. Actions necessary to implement this vision include:
Continue to make improvements to the condition and capacity of Minnesota s primary
railroad arterials to accommodate existing and future demand.
Address critical network bottlenecks.
Upgrade main line track (all Class I-III railroads) to 25 mph minimum speed, as
warranted.
Improve the network (all Class I-III railroads) to support the use of 286,000 pound
railcars throughout.
Implement state-of-the-art traffic control and safety systems.
Expand intermodal service access options throughout the State.
Maintain and ensure broad access to competitive freight rail services for shippers
throughout the State.
Better integrate rail into the public planning process.
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Build upon the existing Minnesota Rail Service Improvement Program (MRSI), including
an increase in the maximum loan amount in excess of the current $200,000 ceiling.
Expand the Rail/Highway Grade Crossing program.
Actively manage preserved rail corridors held in the State Rail Bank and evaluate forpossible future transportation uses.
The vision for passenger rail is that Minnesota should develop a robust intrastate and interstate
intercity passenger rail system which results in improved travel options, costs and speeds for
Minnesota and interstate travelers. The priority program elements are as follows:
Continue to participate in the Midwest Regional Rail Initiative (MWRRI) and support the
development of sustained 110 mph service for connections from the Twin Cities to
Wisconsin and the Chicago Hub Network.
Develop an intrastate intercity passenger rail network connecting the Twin Cities with
viable service to major outlying regional centers.
Connect all services eventually to both the new Minneapolis downtown terminal and
St. Paul Union Depot.
Advance corridors incrementally and simultaneously with Mn/DOTs support; sequencing
depending on financing, ROW acquisition and agreements with freight railroads.
In Phase II, rail connections should be established to additional intercity and commuter
rail markets in Wisconsin and Minnesota, and to an interstate/I-35 Corridor, Red River
Valley, Eastern plains, and Canada.
This State Rail Plan focuses on the development of intercity passenger rail service that would
link the Twin Cities with the Chicago Hub high speed rail network, the national Amtrak system,and major regional trade centers in Greater Minnesota and the upper Midwest, fully coordi-
nated with independent and shared freight improvements. The priority passenger and freight
program elements are as follows:
High-Speed Rail passenger service from the Twin Cities to Madison/Milwaukee/Chicago,
to Duluth, and to Rochester (sustained speeds of 110 mph), with connections in Chicago to
numerous other Midwestern cities also via high speed service;
Enhanced conventional passenger rail service (sustained speeds of 79 to 90 mph) from the
Twin Cities to St. Cloud; Mankato; Fargo, North Dakota; Eau Claire, Wisconsin; and
between Minneapolis and St. Paul;
Positive Train Control (PTC) on all shared passenger-freight corridors and any freight-only
corridors which may handle certain categories of hazardous material to prevent train to
train collisions;
Highway/rail grade crossing safety improvements on all shared corridors;
Upgrades of major junctions and bridges;
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Mainline track upgrades to accommodate freight industry standard 286,000 pound
railcars and provide 25 mph operations;
Systematic statewide replacement of all existing active highway/rail grade crossing
warning devices (flashers/gates) and warning signs; Additional intermodal (truck to rail) freight loading facilities to improve statewide access
to international and domestic container shipping and transloading; and
Short line railroad bridge upgrades including repair and replacement.
If fully implemented, this program would eliminate all substandard rail system capacities due to
current and anticipated growth in rail traffic. The improvements would allow for a comprehensive
network of passenger rail services and the preservation and continued growth of freight rail service
in Minnesota, with connections for both to destinations beyond the States borders.
The State Rail Plans proposed passenger rail system is shown in Figure ES.1. The dark blue
lines represent Phase I priority corridors, and the lighter blue lines are identified as longer-term Phase II projects (not included in the Plans cost estimate).
Figure ES.1 Recommended Minnesota and Regional PassengerRail System
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System CostsThe total capital cost of the fully implemented program (both passenger and freight) over 20-
years is estimated to be $6.2 to $9.5 billion. This total includes $2.2 to $4.4 billion for stand-
alone freight improvements, which traditionally have been the responsibility of the private
railroads. The total estimate also includes $4.0 to $5.1 billion for the priority passenger and
shared freight improvements if built as a system rather than as a series of individual, unrelated
projects. Substantial synergies across projects can be achieved if planned as parts of an
eventual unified system.
These planning level cost estimates are based on high-level systemwide unit costs. More
detailed engineering costs developed for specific corridors may vary significantly from these
estimates as individual projects enter actual assessment and design processes. These detailed
and refined estimates will of necessity be the actual qualifying numbers for any and all actual
funding applications. High- and low-end ranges were developed for most cost elements. The
high-end numbers are referred to as the base case, and the low-end numbers are referred to
as the best case.
All costs shown in this report are in current real (uninflated) dollars as is typically done in a
report of this type so that the difficult to predict impacts of inflation are factored out. However,
for the purposes of consistency with Mn/DOTs Statewide Plan, the total program costs inflated
over the 20-year life of the program would be between $12.4 and $19.0 billion. This estimate is
based on an annual inflation rate of four percent through 2020, three percent thereafter, and
equal expenditures across the 20-year period. In reality, expenditures would probably start out
low, peak in the middle years, and then decline in the out years.
Passenger Rail Performance and BenefitsTable ES.1 summarizes annual passenger rail system performance for both the base and best
case forecasts for the fully developed Phase 1 system. In general, this system compares
favorably on several dimensions with existing national rail performance data. The system
would carry 4.1 to 6 million riders annually. Annual operating subsides for the passenger sys-
tem as a whole would range from $95 million per year in the base case (49 percent farebox
recovery) to $41 million in the best case (71 percent farebox recovery). The latter assumes that
operating subsidies from the Minnesota portion of the interstate Twin Cities to Chicago high-
speed rail route could not be applied to intrastate operating deficits. If it can be so applied, the
overall operating deficit would almost be eliminated in the best case. Note that the best case
forecast assumes higher ridership and revenue than the base case.
Transportation investments can generate a range of direct and indirect economic benefits in
excess of the cost of the programs. While not quantified in this Plan, these benefits are
discussed qualitatively in Section 5.3.
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Rail System Development and FundingResponsibilitiesThe State of Minnesota, through Mn/DOT management and the active oversight of theLegislature, should assume a lead role in advancing the unified system envisioned in this Plan.
Specific steps include:
Organize the States response to Federal rail grant programs to maximize the
opportunities for Federal funding;
Coordinate negotiation of actual operating agreements with the freight railroads;
Analyze public/private benefit/cost allocation for each passenger rail corridor to better
position corridors for FRA grants:
Ensure third party due diligence of each corridor investment;
Clarify capital/operating costs, revenues, financial plan, and project management
plan; and
Provide for Legislative review/acceptance.
The State should adopt the following principles in moving forward:
Limit state funding of operating subsidies to about 25 percent of total O&M costs;
(overall existing state-supported Amtrak corridors generate revenues that cover more
than 85 percent of costs);
Assume equal capital cost share of freight investments in shared corridors actual state
capital costs will depend on benefit/cost allocation with freight rail owner;
Public sector pays for passenger-related capital costs; and
Stand-alone freight improvements will continue to be the primary responsibility of the
private freight railroads, with public participation only for priority projects (up to
approximately 25 percent of overall costs) where clear public benefits can be identified and
where such improvements are consistent with a publicly adopted plan, such as this State
Rail Plan. Projects involving grade crossing safety that facilitate passenger rail projects, or
that clearly support local economic development efforts, are logical candidates for
expanded public investment.
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Table ES.1 Annual Passenger Rail Systemwide Performance MeasuresPerformance Measure Base Case Forecast Best Case ForecastTrain Miles 12,252 12,252
Ridership (thousands) 4,157 6,000
Passenger/Vehicle 154 231
Passenger/Train Mile 1.1 1.61
Vehicle Miles of Travel Saved (millions) 489 733
Greenhouse Gases Reduced (thousands of tons) 318 526
Greater Minnesota Population with Access toSystem by contiguous County or MPO
1 million(41%)
1 million(41%)
Operating and Maintenance Costs(million $ annually)
$181 $140
Farebox Revenue (million $ annually) $89 $99
Subsidy (million $ annually) $92 $51Farebox Recovery Ratio 49% 71%
Operating Subsidy/Rider $22 $6.6
Other public entities such as Regional Rail Authorities and Joint Powers Boards should partner
with Mn/DOT and provide such additional funding as necessary for program elements such as
rolling stock, operating subsidies, and local station development for passenger rail service
development, or to facilitate priority freight improvements. Future partnerships for both
funding and governance will be facilitated by the transition of the Minnesota Passenger Rail
Forum and similar advisory bodies to permanent status. The State and Mn/DOT considers this
ongoing relationship and coordination with local partners and other stakeholders in freight andpassenger services to be vital for the ultimate success and implementation of the Plan.
The State Rail Plan presumes the need for multiple parties, multiple financing techniques, and
a long-term implementation horizon. This 20-year program represents a long-term goal to be
achieved incrementally over the life of the program. A range of financing tools will be needed
among the public sector stakeholders Federal, state, regional/local and the private
railroads. Unlike the interstate highway program to which this national rail initiative is often
compared, there currently is no single dedicated source of funding.
The 2008 Passenger Rail Improvement and Investment Act (PRIIA) created three new passen-
ger rail investment programs for states: the State Capital Grant for Intercity Passenger Rail,
Congestion Grants, and HSR grants. The American Reinvestment and Recovery Act of 2009
(ARRA, commonly referred to as the Stimulus) appropriated an additional $8 billion for
projects in the three PRIIA programs. The FRA developed a three-track grant process for
distribution of these funds. Mn/DOT submitted applications for $135.8 million in partnership
with the Ramsey County Regional Railroad Authority for design and construction of the Union
Depot Multimodal Transit Hub; and with the Wisconsin Department of Transportation for
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$600,000 to prepare a Service Level environmental document for a HSR route between
Milwaukee and the Twin Cities.
Options for leveraging private sector investment include the following:
Expanding the Minnesota Rail Service Improvement Program (MRSI) from a revolving
loan program to a combination of loan and grant programs as done in some other states
like Iowa, Wisconsin and Virginia, and increase the loan ceiling above the current
$200,000.
Offering financial assistance for Railroad Rehabilitation and Improvement Financing
(RRIF) applicants (Oregon has such a program);
Providing state maintenance and investment tax credits for rail improvements; and
Broadening access to the Minnesota Revolving Loan Fund for rail projects beyond grade
crossing improvements.
In addition to these existing or potentially expanded Federal funding programs and
Federal/state programs designed to leverage private investment, a dedicated stream of state
and or local/regional revenue should be considered to support bonding for capital investment
and to defray annual operating subsidies, provide local match for Federal programs, and ensure
the orderly development of corridors. Otherwise, this program will always be in competition
with a broad array of annual state priorities and it will be difficult to achieve the unified system
envisioned in the Plan. Note that a Minnesota constitutional limit of $200 million originally
limiting MRSI program investments for freight improvements may impact passenger rail
program bonding for state capital funds.
Of the $2.2 to $4.4 billion in freight-only improvements, 74 percent of these costs are assumedin the Plan to be covered by the private railroads, with public contributions primarily in the
areas of Positive Train Control (PTC), 286,000 pound railcar compliancy, and grade crossings.
The financing plan for the shared passenger and freight improvements (including the stand-
alone HSR passenger lines) assumes three levels of Federal funding support (0, 50, and 80
percent), and base and best case cost estimates.
Total annual non-Federal public sector costs under all scenarios, including capital and
operating, range from $119 million (best case financial assumptions, 80 percent Federal share)
to $455 million (base case financial assumptions, zero Federal share).
Detailed technical analyses can be found separately in Technical Memoranda 1 through 9 which
are posted on Mn/DOTs web site at http://www.dot.state.mn.us/planning/railplan/
resources.html. Information from the Technical Memoranda which are in the Final Report
have been updated to reflect the newest information and to respond where possible to
comments received during the course of the project from stakeholders.
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1 Overview and Vision1.1 Background and Purpose of StudyThe purpose of the Minnesota Comprehensive Statewide Freight and Passenger Rail Plan (State
Rail Plan), pursuant to Minnesota Statute Minnesota Session Law 2008, Section 174.03 subd 1b,
is to guide the future of the rail system and rail services in the State. The development of the Plan
was jointly managed by the Minnesota Department of Transportations (Mn/DOT) Office of
Freight and Commercial Vehicle Operations, and the newly created Office of Passenger Rail.
This Final Plan Report describes the existing conditions of rail service in the State in 2009
(Section 2.0); forecasts for economic growth in the State, and for the likely demand for freight
and passenger rail service in 2030 (Section 3.0); an assessment of investment needs based on
these forecasts (Section 4.0); the needs arrayed against key performance measures
(Section 5.0); an assessment of institutional issues, strategies, and roles for moving the plan
forward (Section 6.0); and a financing plan (Section 7.0). The major findings are highlighted
below. Detailed technical analyses can be found separately in Technical Memoranda 1 through
9 which are posted on Mn/DOTs web site at http://www.dot.state.mn.us/planning/
railplan/resources.html. Information from the Technical Memoranda which are in the Final
Report have been updated to reflect the newest information and to respond where possible to
comments received during the course of the project from stakeholders.
The timing of this plan is critical. Rail has long played a significant role in the movement of
freight in Minnesota, much more than in many comparable states and regions. It is essential
for the economic well-being of the State that it continue to have the capacity and financial
ability to do so. During 2008 and 2009, major new Federal funding support has appeared for
rail, particularly for investment in intercity passenger rail. This Plan addresses opportunities
for Minnesota to improve both freight and passenger rail in the State. Many of these
opportunities overlap as most of the proposed passenger rail services would operate in whole or
in part on existing trackage owned and operated by the freight railroads.
Relatively small Federal and state grant and loan programs have existed for many years to
support certain types of freight rail investments which have broader public purposes, such asgrade crossings. In 2008, Congress enacted the Passenger Rail Improvement and Investment
Act (PRIIA) which authorized approximately $750 million/year in grants for intercity rail
projects. In 2009, the American Reinvestment and Recovery Act (ARRA or Stimulus) appro-
priated an additional $8 billion for passenger rail projects in the PRIIA programs. These
actions at the Federal level have set off a lively national competition for current and potential
future funding. Figure 1.1 shows the Federal governments vision for a national high-speed
passenger rail network.
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Figure 1.1 National Passenger Rail Vision
During the course of the study, the following visions were identified for guiding the strategies
relative to investment in freight and passenger rail.
1.2 Freight Rail System VisionMinnesotas railroads form a critical part of the States multimodal transportation system.
Many of the States major industries rely on the rail system for efficient delivery of goods. The
rail system is particularly critical in providing efficient connections to markets beyond the
States borders, throughout North America, and to the world through the seaports on the
Pacific and Atlantic coasts, and the Great Lakes. Rail provides critical options to shippers in
terms of market access, modal economics, and service. With expected higher energy costs, the
inherent energy efficiency of rail will make it a more appealing choice for many shippers.
For Minnesota, a strong rail system supports economic development, enhances environmental
sustainability, helps to preserve the publicly owned roadway infrastructure, and increases the
business marketability of the State. A future of increasing regional and international economic
competition, constrained highway capacity, environmental challenges, and rising energy costs,
calls for effectively developing and utilizing a rail system that can support expanded traffic
volumes and a more diverse customer base. Ownership of Minnesotas rail system, which is
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largely private, presents unique challenges and opportunities, requiring strategies and solutions
that are unique to the mode.
The rail industry in Minnesota is a vital and vibrant transportation sector consisting of 24
carriers, ranging from four large Class I railroads to many smaller regional and local carriers.In recent years, growth in traffic hauled by Minnesotas small railroads has outpaced the
industry as a whole, and has shown success in locations where prior efforts failed. This success
has been recognized by industry, with several receiving awards for innovative marketing and
operations. Maintaining and expanding this vitality should be central to the States
involvement with the rail industry.
Therefore, Minnesota should undertake the following steps to accomplish a vision which will
develop a balanced multimodal freight system which can respond to increased regional and
international economic competition, constrained highway capacity, environmental challenges, a
diverse customer base, and rising energy costs.
1.2.1 Infrastructure
A successful, viable rail industry that meets the future needs of Minnesotas economy requires
continued investment and improvement to its infrastructure. As private firms, the freight rail-
road industry is unique in that it has largely borne the cost of maintaining its own
infrastructure. This is expected to continue, but further improvements to the infrastructure will
be necessary, not all of which may be fully self-funded. In recent experience, rail shippers and
public entities have also partnered in both mainline improvements and secondary lines and
shipping facilities. Key elements are as follows:
Continue to make improvements to the condition and capacity of Minnesotas
primary railroad arterialsto accommodate existing and future demand. At present,
these lines are in the best condition that they have ever been.
Address critical network bottlenecks that degrade present service and inhibit the ability
of the States railroads to effectively absorb future traffic.
Upgrade main line track (all Class I-III railroads) to 25 mph minimum speed, as
warranted. This is needed to ensure commercial viability and safety for rail operators, and
current and future shippers that rely on them.
Improve the network (all Class I-III railroads) to support the use of 286,000pound railcars throughout. This weight limit has become the industry-wide standard, and
the viability of lines and shippers facilities that do not have this capacity will diminish over
time.
Implement state-of-the-art traffic control and safety systems to ensure a safe and
efficient rail system on key arterials.
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Expand intermodal service access options throughout the State. Presently, rail
intermodal (the haulage of containers and trailers) services available in Minnesota are limited
geographically and capacity-wise. With one minor exception, existing terminals are all located
in the Twin Cities, and the only direct services available connect to Chicago and the Pacific
Northwest. Service to other regions is either unavailable or circuitous, which has made inter-modal a relevant and economical choice for only a small subset of shippers. Quality service to a
broader set of markets beyond the States borders is needed from a competitive and
environmental standpoint, as is development of a major new Twin Cities terminal, and one or
more intermodal terminals in regions distant from the Twin Cities.
1.2.2 Planning and Policy Development
Maintain and ensure broad access to competitive freight rail services for shippers
throughout the State. The relevance of rail service to Minnesotas industry is directly
related to geographic coverage, trip times, reliability, availability of appropriate rolling stock,
and cost. These needs should be achieved through a range of competitive service offerings,
from single carload to high-volume unit train shipments, bulk transloading, intermodal, and
innovative solutions that are yet to be developed.
Better integrate rail into the public planning process, including modal tradeoff
analysis, local and regional comprehensive plans, modal diversion, industrial development
strategies, and public ports planning.
1.2.3 Existing Rail Programs
State assistance for freight rail projects should build upon the existing Minnesota
Rail Service Improvement Program (MRSI). While the 30-year-old program has helped
to support a strong rail system in the State, funding limits have become inadequate, and a
broader program should go beyond small loans for infrastructure improvements. The program
should include a range of solutions and financing options, including branch and short line
preservation, and an increase in the maximum loan amount in excess of the current $200,000
ceiling.
The Rail/Highway Grade Crossing program should expand to consider a broader array
of strategies beyond active warning devices, and match or exceed device replacement needs .
The Federal Section 130 grade crossing program has provided an institutional structure and amodest source of funds to improve rail/highway grade crossings primarily through the
installation of active warning devices. Substantial reductions in grade crossing incidents have
been the result, and Minnesota has embraced the program and the public/private partnership
model that lies at its foundation. Going forward a more dynamic approach to grade crossings
will be necessary, as regions of the State continue to urbanize and rail traffic volumes and
speeds increase. While grade crossing warning devices and other low-cost improvements will
remain an important part of the mix, other, more complex and costly strategies such as quiet
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zones, advanced crossing systems and even grade separations are increasingly being
demanded by the public. With resources being insufficient to meet existing program mandates,
expanded state involvement will necessitate development of a range of creative solutions.
Preserved rail corridors held in the State Rail Bank should be more activelymanaged and evaluated for possible future transportation uses . While interim uses
of preserved rail corridors, typically as recreational trails, have seemingly maintained their
integrity for future transportation use, the likelihood of their reuse for rail transportation pur-
poses is very modest. Encroachment by abutters, regulations, and political considerations
make conversion to an active railroad extremely difficult and costly. If demand for rail service
continues to increase, the ability to reconstitute some of these trails as rail lines may be
desirable. A more nuanced rail banking strategy that establishes clear policies for line
acquisition and disposition, and that differentiates rail banking for purposes of future rail use
versus other indefinite interim public uses should be established.
1.3 Passenger Rail VisionMinnesota currently has one active intercity passenger rail service Amtraks Empire Builder
which provides service between Chicago and points west, and one light rail line Hiawatha
which operates between the Mall of America and downtown Minneapolis. Minnesotas first
commuter rail service Northstar providing service between Big Lake and the Twin Cities,
started up just as this Plan was being completed in late 2009.
Many conditions exist which make it desirable for Minnesota to develop an intrastate and inter-
state intercity rail system. These conditions include 1) expected continued population and
economic growth once the State emerges from the current recession, putting further demands
on the States capacity constrained highway system; 2) the sudden availability of significantFederal funds dedicated to intercity passenger rail; and 3) macroeconomic and global
environmental and energy trends and policies which are likely to significantly increase long-
term fuel prices and require significant controls on greenhouse gas emissions.
Given these conditions, Minnesota should undertake the following steps to accomplish a vision
which will develop a robust intrastate and interstate intercity passenger rail system which
results in improved travel options, costs and speeds for Minnesota and interstate travelers.
Continue to participate in the Midwest Regional Rail Initiative (MWRRI) and
support the development of sustained 110 mph service for connections from the Twin Cities to
Wisconsin and the Chicago Hub Network.
Develop an intrastate intercity passenger rail network connecting the Twin Cities
with viable service to major outlying regional centers. These services can be started-up
as stand-alone projects and coordinated as part of a larger regional/national system. These
services should use interchangeable and interoperable equipment. Local transit services in the
major MPO regions should be coordinated to support the rail system. System speeds should be
a sustained 79 to 90 mph, with a goal of achieving 110 to 150 mph where track conditions and
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market demand permit and warrant. Systems should be built out on existing freight lines
where possible, and on new dedicated passenger tracks where desirable and necessary.
All services should ultimately connect to both the new Minneapolis downtown
terminal and St Paul Union Depot.
Corridors should be advanced incrementally, to build ridership and system advantages,
leaving open all future options for viable improvements stand-alone branches, through
routes, new alignments, potential airport connections, and true high-speed rail (HSR).
Corridors should advance simultaneously with Mn/DOTs support; sequencing
depending on financing, ROW acquisition and agreements with freight railroads.
In Phase II, rail connections should be established to additional intercity and
commuter rail markets in Wisconsin and Minnesota, and to an interstate/I-35
Corridor, Red River Valley, Eastern plains and Canada.
1.4 Categories of Passenger RailThis study focuses on the development of intercity passenger rail service that would link the
Twin Cities with outlying locations in Greater Minnesota and the upper Midwest.
Opportunities also exist for the development of overlapping commuter rail and intercity ser-
vices in the Twin Cities metropolitan area on many of the proposed intercity passenger lines. It
is possible that intercity trains could pick up passengers at a few key outlying commuter stops,
or at the very least interchange with the commuter services. However, if long-distance intercity
trains make frequent commuter rail stops they will cease to provide time competitive quality
service to more distant origins and destinations. This study acknowledges the potential forsuch synergies, but a detailed analysis will need to come out of the individual commuter and
intercity rail studies.
Following is a description of the different categories of passenger rail services and how this
study fits into that typology.
Light Rail Transit (LRT). LRT is an electrically powered, two-railtechnology capable of providing a broad range of passengercapacities, and operating as single vehicles or in short trains on avariety of alignment types. It is a mode combining vehicletechnology very similar to that of streetcars, but operating primarilyon a partially controlled right-of-way and typically at higher speedsand passenger loadings. LRT typically operates with frequent stops
in dense urban environments at speeds of 20 to 50 mph. The Hiawatha line from theMinneapolis/St. Paul Airport to downtown Minneapolis is an example of LRT, as will be the proposedCentral Corridor line along University Avenue connecting St. Paul and Minneapolis.
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Heavy Rail Transit. Heavy Rail Transit, typically referred to as asubway, is an electric railway with the capacity for a heavyvolume of traffic in dense urban areas. It is characterized byhigh-speed and rapid acceleration passenger railcars operatingsingly or in multicar trains on fixed rails; separated right-of-wayfrom which all other vehicular and foot traffic are excluded;sophisticated signaling; and high platform loading. Heavy rail isnot compatible with other transit modes in the Minneapolis and St. Paul area.
Commuter Rail. Commuter Rail is an urban passenger train servicethat connects an urban region together over moderate distances;which typically operates on existing freight tracks; and whose primaryclientele travels between home and work. Commuter rail servicemay be either locomotive-hauled or self-propelled, and ischaracterized by reduced fair multitrip tickets, specific station-to-
station fares, and usually only one or two stations in the central business district. Average speeds are 18to 55 mph. The Northstar rail line from Big Lake to Minneapolis is the first example of commuter rail inMinnesota.Conventional Intercity Rail. Traditional intercity passenger rail servicesare typically more than 100 miles with as little as one to as many as7 to 16 daily frequencies. Top speeds of up to 79 miles per hour toas high as 90 miles per hour are common on shared freight track.Current Amtrak service connecting the Twin Cities to Chicago andthe Pacific Northwest is an example of this service.High-Speed Rail (HSR). HSR service has the characteristics of intercity rail service but at substantiallyhigher speeds. It is most applicable in markets where the combination of travel demand and distancejustifies the higher investment cost. North American practice defines HSR as being at least 110 mph.
Operations can occur over track shared with slower passengerand freight trains at speeds of up to 150 mph, and on dedicatedtrack where speeds in some countries now exceed 200 mph.Amtraks Northeast Corridor Acela service is the only (partial)operational example of HSR in North America.
1.5 Investment NeedsThe analytical methodology used to develop the Rail Plan is shown in Figure 1.2. Demand
forecasts were developed for the year 2030 for both freight and passenger rail services in
Minnesota. These forecasts were compared to a detailed capacity analysis of the existing and
proposed freight and passenger rail networks, including three types of lines: 1) those likely to
remain freight only; 2) those proposed for shared freight and passenger services; and 3) those
proposed for stand-alone high-speed passenger rail services. An initial screening was con-
ducted of potential passenger services and some were eliminated from further consideration.
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The remainder of the system was subject to an extensive needs assessment for its ability to meet
future freight and passenger demand. Rail lines were rated on a Level of Service (LOS) scale of
A-F, where A-C was considered to be adequate capacity to meet future demand. High-level cost
estimates were developed and the benefits of the improvements were compared against a set of
performance measures. Those projects with the highest ratings were included in the resultingPriority Program.
Figure 1.2 Needs Assessment Methodology
CapacityAssessment
Shared Freight/Passenger Corridors
Freight Demand Forecasts Passenger Demand Forecasts
Freight OnlyCorridors
High-SpeedRail Corridors
PreliminaryScreening
Needs Identification andJoint Reconciliation
PerformanceEvaluation (Benefits)
CostEstimation
Prioritized Projects (Draft)
Ridership forecasts are shown in
Table 1.1. All services would be between
the Twin Cities and the identified city
pair. Cities have been grouped into four
tiers based on market size. The base case
forecasts come directly out of the
modeling process used by this project.
The best case forecasts represent a
50 percent higher forecast which could be
achieved in a variety of ways byincluding the demand from intermediate
intercity and commuter rail stops,
network effects, or by changes in external
variables such as higher than predicted
fuel prices.
The performance measures used to analyze the projects wereas follows: System Performance Capacity, speed, annual
production of ton/miles, ridership; System Condition Track, bridges, crossings; Connectivity/Accessibility Proximity to users, commercial
terms, modes; Safety and Security At-grade crossings, hazmat,
inspections; Environmental Positive and negative impacts of
construction and operations; and Financial/Economic Capital costs, operations, taxes, jobs,
economic development, cost/benefit comparisons.
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Table 1.1 Ridership Forecasts Results2030 Annual Trips with Most Favorable Variables Tested
Base Case Forecast Best Case ForecastOver 1 million (Selected Cities)
Chicago
St. Cloud
Over 1.5 million (Selected Cities)
Chicago
St. Cloud
400,000-600,000
Duluth (NLX)
Rochester
600,000-800,000
Duluth (NLX)
Rochester
100,000-300,000
Wisconsin Points on MWRRI
Mankato
Eau Claire Northfield
150,000-450,000
Wisconsin Points on MWRRI
Mankato
Eau Claire Northfield
100,000 or under
Fargo
Red Wing
Winona
Willmar
100,000 or more
Fargo
Red Wing
Winona
Willmar
A significant number of primary rail lines operate over capacity in 2009 and are shown in
Figure 1.3. The number of lines experiencing capacity constraints are expected to increase sub-stantially by 2030 given the forecast increases in freight demand and proposed passenger
services.
A priority program was developed which would meet the identified needs and achieve the Rail
Visions described above. The program contains the following elements:
HSR passenger service to Chicago, Duluth, and Rochester: Upgrade/develop corridors to
FRA Class 6 conditions1;
1 The Federal Railroad Administration classifies track into a series of categories based on physical condition
(i.e., tie and rail condition, surface, cross-level, etc.). For each category, which ranges from I to VIII, trains
are permitted to travel up to a set speed, with the higher numbered categories allowing higher speeds.
Permissible speeds generally differ for passenger and freight trains; thus, while freight trains can travel up
to 40 mph on FRA Class III track, passenger trains can reach 60 mph. Typical short line track is
maintained to FRA Class II (24 mph maximum for freight), and Class I (10 mph maximum). For more
information, see 49 CFR 213.9 and 213.307.
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Enhanced conventional passenger rail to St. Cloud, Mankato, Fargo, Eau Claire and
between the Twin Cities: Upgrade corridors to Class 4 (minimum), 5, or 6 conditions as
warranted (respectively 79, 90, or 110 mph);
Positive Train Control (PTC) on all shared corridors and freight-only corridors which mayhandle certain categories of hazardous material;
Grade crossing upgrades on all shared corridors;
Upgrade major junctions and bridges;
All mainline track upgraded to minimum 286,000 pound capacity and 25 mph condition;
Programmed upgrades of all active warning devices and signs;
Additional intermodal facilities; and
Short line bridge upgrades.
Figure 1.3 Current LOS with 2009 Freight and Passenger Volumes andFuture LOS with 2030 Freight and Passenger Volumes, with NoImprovements
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This priority program essentially combines all investments that are needed for implementation
of both freight and passenger improvements. Integrating the demand forecasts and the passen-
ger-related projects, the resulting passenger rail system is shown in Figure 1.4. The dark blue
lines are included in the Phase I priority program, and the lighter blue lines are identified as
Phase II projects but not included in the final cost estimate for the program.
Figure 1.4 Recommended Minnesota and Regional Passenger Rail System
If fully implemented, this program would eliminate all substandard capacities in 2009 and
2030 as shown in Figures 1.5 and 1.6 respectively.
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Figure 1.5 Current LOS with Freight and Passenger Volumes versus LOSwith Post-2009 Freight and Passenger Improvements
Figure 1.6 Future LOS with 2030 Freight and Passenger Volumes versusFuture LOS Post-2030 Freight and Passenger Improvements
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The total capital cost of the fully implemented program over 20-years would be between $6.9 and
$10.2 billion. This amount consists of the $2.2 to $4.4 billion for freight-only improvements; and
$4.7 to $5.8 billion for the priority passenger and shared freight improvements if built as a system
rather than as a series of individual, unrelated projects. Substantial synergies across projects can be
achieved if planned as parts of an eventual unified system. Section 1.7 discusses how the programcould be financed across various public and private participants.
Cost estimates are based on high-level systemwide unit costs. More detailed engineering costs
developed for specific corridors may vary significantly from these estimates. High- and low-end
ranges were developed for most cost elements. The high-end numbers are referred to as the
base case, and the low-end numbers are referred to as the best case. The primary
differences in the two sets of estimates are as follows:
The base case assumes the ridership forecasts developed for this study; the best case
assumes a 50 percent increment in ridership and 25 percent increment in revenue.
The base case assumes a 30 percent contingency and the best case assumes a 10 percent
contingency.
The base case assumes that Positive Train Control (PTC) would be implemented on Class I
freight lines in combination with conventional Central Traffic Control (CTC). PTC is a
state-of-the-art technology which is intended to prevent train collisions. PTC is an
unfunded Federal mandate enacted by the Rail Safety Improvement Act of 2008 (RSIA)
and must be implemented by 2015 on all shared passenger and freight lines, and on all
Class I freight mainlines which may carry certain classes of hazardous materials. The best
case assumes proceeding directly to PTC implementation, with CTC capabilities integrated
into the PTC technology rather than as a stand-alone system. Full implementation of PTC
accounts for $2.3 billion of program costs in the base case. The best case assumes a
reduced cost of $335 million.
The best case reduces the number of trainsets required for the entire system by 20 percent,
on the assumption that trains can be through routed across the system once it is in place.
The base case assumes the cost of operations and maintenance to be $70/mile based on
Amtraks fully allocated overhead costs, excluding depreciation and interest. The best case
assumes $55/mile based on actual Amtrak direct costs, excluding infrastructure
maintenance and system costs. These estimates are used for costing purposes only; there
is no presumption regarding who the ultimate operator of the system will be.
The base case assumes capacity rights fees on freight railroads of $85,000/train per mile
based on the actual negotiated Northstar rate; the best case assumes about one-half of that
or $40,000 on the assumption that the combination of high freight demand and intensivecommuter rail service drove up the Northstar price.
The resulting range of system capital costs are as follows:
All freight-only improvement needs = $2.2 to $4.4 billion;
All passenger and shared passenger/freight improvement needs as individual projects =
$6.8 to $8.4 billion (passenger needs include all of the lines shown on Figure 1.4);
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All passenger and shared passenger/freight improvement needs as a system = $4.5 to $5.7
billion;
All passenger and shared passenger/freight improvement needs on Phase I passenger rail
priority system = $4.0 to $5.1 billion (passenger needs include only lose lines shown indark blue on Figure 1.4, including Chicago/MWRRI via the River Route, and services
between the Twin Cities and Rochester, Duluth, Mankato, St. Cloud, and Fargo); and
Total program costs = $6.2 to $9.5 billion.
All costs shown in this report are in current real (uninflated) dollars as is typically done in a
report of this type so that the difficult to predict impacts of inflation are factored out. However,
for the purposes of consistency with Mn/DOTs Statewide Plan, the total program costs inflated
over the 20-year life of the program would be between $12.4 and $19.0 billion. This estimate is
based on an annual inflation rate of four percent through 2020, three percent thereafter, and
equal expenditures across the 20-year period. In reality, expenditures would probably start out
low, peak in the middle years, and then decline in the out years.
The performance of the various passenger projects in the base case based on forecast ridership,
capital cost, and farebox recovery ratio is shown in Figure 1.7. The ideal location of a project
would be the lower right-hand corner where a project would have low cost and high ridership.
The size of the circle reflects the percentage of farebox recovery. All capital costs (passenger-
only and shared freight) are included in the vertical axis.
Figure 1.7 Summary of Passenger Route Performance Base Case
Fargo 20%
Willmar/Sioux Falls 5%
Northfield/Albert Lea 5%
Eau Claire 35%
$0
$250
$500
$750
$1,000
$1,250
$1,500
$1,750
$2,000
St Cloud 70%
Duluth 21%
Mankato 29%Chicago (River Route) 141%
Rochester 28%
Chicago (Rochester Route) 118%
0 500 1,000 1,500 2,000 2,500
Riders (Thousands)
Capital Cost ($ Millions)
Farebox Recovery
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As shown, both Chicago routings are expensive but have high ridership and excellent farebox
recovery ratios consistent with Amtraks Northeast Corridor Acela service. Note that costs
and revenues are prorated to reflect only the Minnesota portion of these services. St. Cloud
has relatively modest costs and excellent ridership and farebox recovery for an intrastate
service. Both Chicago, through the MWRRI plans, and St. Cloud, as the eventual terminationpoint of Northstar commuter services, have long been in the forefront of passenger rail
planning in the State.
Duluth and Rochester have the next highest ridership levels but are expensive to build because
they are proposed as HSR lines (unlike St. Cloud). Mankato and Eau Claire are relatively
inexpensive conventional lines and show reasonably good farebox recovery ratios. The other
projects are inexpensive but with relatively lower ridership, which is why Willmar and Albert
Lea were put into Phase II. Fargo, of course, currently has passenger rail service as part of
Amtraks Empire Builder route, and this service should continue and be enhanced as part of the
overall MWRRI program.
Figure 1.8 shows the same analysis based on the best case annual operating and maintenance
costs and 25 percent higher revenue based on the higher ridership forecasts. Note that reve-
nue is not increased by the full 50 percent increment in ridership, but by 25 percent, since
riders from intermediate destinations would pay lower fares than riders traveling between the
end points.
Figure 1.8 Summary of Passenger Route Performance Best Case
Farebox Recovery
Northfield/Albert Lea 8%
Eau Claire 56%$0
$250
$500
$750
$1,000
$1,250
$1,500
$1,750
$2,000
St Cloud 111%
Fargo 43%
Duluth 34%
Willmar/Sioux Falls 8%
Mankato 46% Chicago (River Route) 224%
Rochester 44%
Chicago (Rochester Route) 190%
0 500 1,000 1,500 2,000 2,500 3,000 3,500
Riders (Thousands)
Capital Cost ($ Millions)
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Table 1.2 Annual Passenger Rail Systemwide Performance Measures(Annual) Phase I
Performance Measure Base Case Forecast Best Case ForecastTrain Miles 12,252 12,252
Ridership (thousands) 4,157 6,000
Passenger/Vehicle 154 231
Passenger/Train Mile 1.1 1.61
Vehicle Miles of Travel Saved (millions) 489 733
Greenhouse Gases Reduced (thousands of tons) 318 526
Greater Minnesota Population with Access byCounty or MPO of Station
1 million(41%)
1 million(41%)
Operations and Maintenance Costs(millions $ annually)
$181 $140
Farebox Revenue (millions $ annually) $89 $99
Subsidy (millions) $92 $51
Farebox Recovery Ratio 49% 71%
Operating Subsidy/Rider/Day $22 $6.6
Table 1.2 shows a series of systemwide performance measures for both the base and best case
forecasts. In general, this system compares favorably on several dimensions with existing
national rail performance data. Note that annual operating subsides for the system as a whole
would range from $95 million per year in the base case (49 percent farebox recovery) to $41
million in the best case (71 percent farebox recovery). The latter assumes that operating subsi-
dies from the Minnesota portion of the interstate MWRRI route could not be applied to
intrastate operating deficits. If it can be so applied, the overall operating deficit would almostbe eliminated.2
The VMT reduction equals between approximately 1-2 percent of statewide VMT depending on
the scenario, which is typical of most major public transportation investments. VMT reductions
on a corridor specific basis would be higher.
Implementation of the freight program would result in the following metrics being achieved:
All mainline track speeds would be at least 25 mph;
All rail lines would have 286,000 pound railcar capacity;
Significant increases in track to siding ratios would be achieved; Positive Train Control (PTC) would be implemented on all Class I mainlines; and
2 This is why a 25 percent increase in revenue for each route does not produce an overall increase in revenue
of 25 percent, since the additional surplus from the Chicago route is not applied to the intrastate routes in
this calculation.
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All active grade crossing devices would be upgraded or replaced.
Transportation investments can generate a range of direct and indirect economic benefits in
excess of the cost of the programs. While not quantified in this study, there benefits are
discussed qualitatively in Section 5.3.
1.6 Management ApproachThe State of Minnesota, through dedicated Mn/DOT departments, with the active oversight of
the Legislature, should take a strong lead in advancing the process forward in order to develop
the unified system envisioned in this Plan. Specific steps include:
Organize the States response to Federal rail grant programs to maximize the
opportunities for Federal funding;
Coordinate negotiation of actual operating agreements with the freight railroads;
Analyze public/private benefit/cost allocation for each passenger rail corridor to better
position corridors for FRA grants:
Ensure third party due diligence of each corridor investment;
Clarify capital/operating costs, revenues, financial plan, and project management
plan; and
Provide for Legislative review/acceptance.
The State should adopt the following principles in moving forward:
Limit state funding of operating subsidies to about 25 percent of total O&M costs;(overall state-supported Amtrak corridors generate revenues that cover more than
85 percent of costs);
Assume equal capital cost share of freight investments in shared corridors actual
state capital costs will depend on benefit/cost allocation with freight rail owner; and
Public sector pays for passenger-related capital costs.
Other public entities such as Regional Rail Authorities and Joint Powers Boards should partner
with Mn/DOT and provide such additional funding as necessary for program elements such as
rolling stock, operating subsidies, and local station development. The decision-making
framework is shown in Figure 1.9.
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Figure 1.9 Passenger Rail Project Decision ProcessMN/DOT
Project Inclusion inState Rail Plan
Project Inclusion in StateTransportation
Improvement Plan
Railroad
Development of ProjectOperating Agreement
Simulation of Freight,Passenger Rail Traffic
MN Legislature
ProvisionalCommitment for State
Funding
Legislative Approval forRevenue Bond Funding
Capital, OperatingCost, Revenue
Estimates
Project ManagementPlan (Construction and
Operations)
Project Financial Plan
Application forFederal Funding
Receipt ofFederal Funding
Final Recommendationfor Project Funding
Negotiation of Publicand Private Benefits
and CostsPublic Hearing forProvisional StateCommitment
1.7 FinancingThe approach to financing the State Rail Plan presumes the need for multiple actors,
methodologies, and years. This is a 20-year program and the full program costs should not be
viewed as daunting but rather as a long-term goal which can be achieved incrementally over the
life of the program. A range of financing tools will be needed among the public sector stake-
holders Federal, state, regional/local and the private railroads. Unlike the interstate
highway program to which this national rail initiative is often compared, there is no single
dedicated source of funding.
State and local funding commitment to planning, capital investment, and operations has
already been demonstrated in Minnesota, and will continue. State general fund and bonding
funds have been dedicated to the existing freight and safety programs (including MRSI), the
Office of Passenger Rail in Mn/DOT, Northstar Commuter Rail, NLX, MWRRI, and a $26
million bonding commitment to advance and match Federally funded projects and future
applications. Minnesota counties and Regional Railroad Authorities have also committed local
matches from both general funds and tax levies toward these and other projects.
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On the Federal side, there are a number of program elements within the existing surface
transporta